ProMoS NG - Heat and cooling systems

The efficient control and visualization of heating and cooling network systems is crucial for the smooth operation and optimization of energy distribution in modern buildings and industrial plants. With advanced solutions from the field of building automation, ProMoS NG enables comprehensive and user-friendly monitoring, control and visualization of district heating and cooling networks.  Our platform offers you centralized control of all relevant processes, including temperature control, energy recording and distribution, as well as the control of pumps, valves and other system components. Real-time visualization allows you to quickly understand operating conditions, detect anomalies immediately and make instant adjustments to maximize energy efficiency and comfort in your systems.  With ProMoS NG, you can not only achieve effective and reliable control, but also use the integration of IoT technologies, machine learning and automated algorithms to operate your systems even more efficiently. Optimize your combined heating and cooling systems with a powerful and flexible solution that supports you every step of the way.

 

Heating and cooling supply systems

Control and monitoring of energy supply networks for heating and cooling

The following points can be covered with the help of ProMoS NG:

 

Combined heat and power systemsNetworks that transport heat from one or more central sources (e.g. combined heat and power plant or cogeneration unit) to several buildings or systems. These systems are efficient and environmentally friendly as they allow heat to be generated centrally.

Cooling compound systems
Similar to heating compound systems, but for the supply of cooling. These are often used in large office buildings, industrial plants or shopping centers to provide cooling centrally.

District heating
A system that transports heat via insulated pipes from a central heating source to various households or industrial plants. It is particularly widespread in urban areas.

District cooling supply
A system for supplying chilled water or refrigerants from a central cooling source to various consumers to enable air conditioning of buildings or industrial plants.

Energy distribution
The process of transferring energy (in the form of heat or cold) from the generating unit (e.g. combined heat and power plant or cooling unit) to the consumers in a network.

Building automation
The automated control and monitoring of systems in a building, such as lighting, heating, ventilation and air conditioning, to maximize efficiency and comfort.

Energy efficiency
The use of less energy to achieve the same output. In heating and cooling systems, this means optimizing energy consumption to save costs and protect the environment.

Energy optimization
Adjusting and controlling systems to minimize energy consumption, maximize comfort and improve system performance.

Combined heat and power (CHP)
A process in which electricity and usable heat are generated simultaneously. In combination with combined heat and power systems, the heat generated is fed into the heating network.

Temperature control
The precise control of temperature within a system (e.g. in a building or industrial process) to ensure a constant and desired temperature.

Energy recording
The systematic collection and analysis of data on energy consumption and production in order to identify optimization potential and control the use of energy.

Control technology
Technologies and methods for controlling processes in a system, such as the control of pumps, valves and other components in heating and cooling systems.

Pump control
The control and monitoring of pumps used in heating or cooling networks to ensure the transportation of heat or cold through pipes.

Valve control
The control of valves that regulate the flow of heat or cold in a system. Precise valve control is crucial for the efficiency and operation of heating and cooling network systems.

IoT integration
The integration of Internet of Things (IoT) technologies to connect and monitor devices and systems in real time. This enables intelligent and data-supported control of heating and cooling systems.

Smart Building Solutions
Technologies and systems that make buildings "smart" by automatically responding to user behavior to maximize comfort, safety and energy efficiency.

Real-time monitoring
Continuous monitoring of a system, where data is collected and analyzed in real time to enable immediate responses to deviations or problems.

Energy consumption analysis
The detailed analysis of energy consumption within a system or building to identify potential savings and improve efficiency.

Automated control
The use of software and hardware to automatically control and adjust systems such as heating, ventilation and air conditioning systems without manual intervention (e.g. PLC systems).

Process visualization
The graphical representation of operating data and processes that enables system statuses and processes to be monitored and controlled quickly and efficiently.

Maintenance management
The management and planning of maintenance measures in a system to ensure continuous operation and minimize downtime.

Fault management
The identification, analysis and rectification of faults or malfunctions in the system to ensure the performance and reliability of the heating or cooling system.

System monitoring
Continuous monitoring of all relevant systems and components of a heating or cooling network system to ensure operational readiness and detect problems at an early stage.

Optimization of heating networks
The analysis and adaptation of heating networks to improve energy distribution, reduce losses and maximize efficiency. This can be achieved through intelligent control, adjustment of pressure and temperature as well as demand-oriented energy feed-in.